import openmc
import openmc.model

from tests.testing_harness import PyAPITestHarness


class TRISOTestHarness(PyAPITestHarness):
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        # Define TRISO matrials
        fuel = openmc.Material()
        fuel.set_density('g/cm3', 10.5)
        fuel.add_nuclide('U235', 0.14154)
        fuel.add_nuclide('U238', 0.85846)
        fuel.add_nuclide('C0', 0.5)
        fuel.add_nuclide('O16', 1.5)

        porous_carbon = openmc.Material()
        porous_carbon.set_density('g/cm3', 1.0)
        porous_carbon.add_nuclide('C0', 1.0)
        porous_carbon.add_s_alpha_beta('c_Graphite')

        ipyc = openmc.Material()
        ipyc.set_density('g/cm3', 1.90)
        ipyc.add_nuclide('C0', 1.0)
        ipyc.add_s_alpha_beta('c_Graphite')

        sic = openmc.Material()
        sic.set_density('g/cm3', 3.20)
        sic.add_nuclide('C0', 1.0)
        sic.add_element('Si', 1.0)

        opyc = openmc.Material()
        opyc.set_density('g/cm3', 1.87)
        opyc.add_nuclide('C0', 1.0)
        opyc.add_s_alpha_beta('c_Graphite')

        graphite = openmc.Material()
        graphite.set_density('g/cm3', 1.1995)
        graphite.add_nuclide('C0', 1.0)
        graphite.add_s_alpha_beta('c_Graphite')

        # Create TRISO particles
        spheres = [openmc.Sphere(r=r*1e-4)
                   for r in [212.5, 312.5, 347.5, 382.5]]
        c1 = openmc.Cell(fill=fuel, region=-spheres[0])
        c2 = openmc.Cell(fill=porous_carbon, region=+spheres[0] & -spheres[1])
        c3 = openmc.Cell(fill=ipyc, region=+spheres[1] & -spheres[2])
        c4 = openmc.Cell(fill=sic, region=+spheres[2] & -spheres[3])
        c5 = openmc.Cell(fill=opyc, region=+spheres[3])
        inner_univ = openmc.Universe(cells=[c1, c2, c3, c4, c5])

        # Define box to contain lattice and to pack TRISO particles in
        min_x = openmc.XPlane(-0.5, boundary_type='reflective')
        max_x = openmc.XPlane(0.5, boundary_type='reflective')
        min_y = openmc.YPlane(-0.5, boundary_type='reflective')
        max_y = openmc.YPlane(0.5, boundary_type='reflective')
        min_z = openmc.ZPlane(-0.5, boundary_type='reflective')
        max_z = openmc.ZPlane(0.5, boundary_type='reflective')
        box_region = +min_x & -max_x & +min_y & -max_y & +min_z & -max_z
        box = openmc.Cell(region=box_region)

        outer_radius = 422.5*1e-4
        centers = openmc.model.pack_spheres(
            radius=outer_radius, region=box_region, num_spheres=100, seed=1)
        trisos = [openmc.model.TRISO(outer_radius, inner_univ, c)
            for c in centers]

        # Create lattice
        ll, ur = box.region.bounding_box
        shape = (3, 3, 3)
        pitch = (ur - ll) / shape
        lattice = openmc.model.create_triso_lattice(
            trisos, ll, pitch, shape, graphite)
        box.fill = lattice

        root = openmc.Universe(0, cells=[box])
        self._model.geometry = openmc.Geometry(root)

        settings = openmc.Settings()
        settings.batches = 4
        settings.inactive = 0
        settings.particles = 100
        settings.source = openmc.IndependentSource(space=openmc.stats.Point())
        self._model.settings = settings

        self._model.materials = openmc.Materials([fuel, porous_carbon, ipyc,
                                                  sic, opyc, graphite])


def test_triso():
    harness = TRISOTestHarness('statepoint.4.h5', model=openmc.Model())
    harness.main()
